CN108427518B

CN108427518B - Terminal input assembly, terminal and terminal input method

Info

Publication number: CN108427518B
Application number: CN201810150158.5A
Authority: CN
Inventors: 胡赛峰
Original assignee: Shanghai Moruan Communication Technology Co Ltd
Current assignee: Shanghai Moruan Communication Technology Co Ltd
Priority date: 2018-02-13
Filing date: 2018-02-13
Publication date: 2020-12-25
Anticipated expiration: 2038-02-13
Also published as: CN108427518A

Abstract

The invention discloses a terminal input assembly, a terminal and a terminal input method, wherein the terminal input assembly comprises a control module and a fingerprint module, the fingerprint module comprises a metal ring and a fingerprint identification sensor, the metal ring is sleeved outside the fingerprint identification sensor, when the metal ring is taken out, the control module is used for switching the metal ring from a fingerprint identification mode to a signal transmission mode and generating a driving signal and loading the driving signal to the metal ring, and the metal ring is used for transmitting the driving signal to a touch screen. According to the terminal input assembly, the control module is arranged on the metal ring on the fingerprint module, when the metal ring is taken out of the fingerprint module, the control module controls the metal ring to be switched from the fingerprint identification mode to the signal emission mode, so that the metal ring emits the driving signal generated by the control module to the touch screen, and the defect that the touch screen cannot accept input of wearing common gloves is overcome.

Description

Terminal input assembly, terminal and terminal input method

Technical Field

The invention relates to the field of mobile terminals, in particular to a terminal input assembly, a terminal and a terminal input method.

Background

The capacitive touch screen commonly used in the market needs to be touched by fingers and works by utilizing the current induction of a human body.

Only a small part of the capacitive touch screen supports the touch function of the glove, the thickness and the material of the glove are required, the existing technology can only support the gloves made of thin materials, and cotton gloves, ski gloves and thick leather gloves worn in winter can not use the touch screen.

Disclosure of Invention

The invention aims to overcome the defect that the input of a touch screen of terminal equipment cannot be accepted by wearing common gloves in the prior art, and provides a terminal input assembly, a terminal and a terminal input method.

The invention solves the technical problems through the following technical scheme:

the utility model provides a terminal input subassembly, terminal input subassembly includes control module and fingerprint module, the fingerprint module contains becket and fingerprint identification sensor, the becket cover is located the fingerprint identification sensor outside, works as when the becket is taken out, control module is used for with the becket switches to the signal transmission mode from the fingerprint identification mode, still is used for producing drive signal and loads to on the becket, the becket is used for launching drive signal is to the touch-sensitive screen.

Optionally, when the metal ring is placed on a fingerprint sensor, the control module is configured to switch the metal ring from the signal transmission mode to the fingerprint recognition mode, and further configured to stop generating the driving signal.

Optionally, the terminal input assembly further includes a first detection module, the first detection module is electrically connected to the control module, the first detection module is configured to detect whether the metal ring is taken out, and if so, the control module is invoked to switch the metal ring from the fingerprint identification mode to the signal transmission mode and generate the driving signal.

Optionally, the terminal input assembly further includes a first wireless module, the first wireless module is electrically connected to the control module, and when the metal ring is taken out, the first wireless module is configured to perform communication matching with the terminal, and call the control module to load the driving signal onto the metal ring when matching is successful.

Optionally, the terminal input assembly includes a touch sensor, the touch sensor is electrically connected to the control module, the touch sensor is disposed on the metal ring, when the metal ring is taken out, the touch sensor is configured to generate a touch signal after receiving an external touch operation and send the touch signal to the control module, the control module is configured to send the touch signal to the first wireless module, and the first wireless module is further configured to send the touch signal to the terminal;

and/or the terminal input assembly further comprises a temperature sensor, the temperature sensor is arranged on the metal ring and electrically connected with the control module, when the metal ring is taken out, the temperature sensor is used for sensing external temperature to generate temperature information and sending the temperature information to the control module, the control module is used for sending the temperature information to the first wireless module, and the first wireless module is further used for sending the temperature information to the terminal;

and/or, terminal input subassembly still includes acceleration sensor, acceleration sensor set up in on the becket, acceleration sensor with the control module electricity is connected, works as when the becket is taken out, acceleration sensor is used for responding to the acceleration and generates acceleration information and send to control module, control module be used for with acceleration information sends to first wireless module, first wireless module still is used for sending acceleration information extremely the terminal.

A terminal comprises the terminal input assembly, a touch screen and a main control unit, wherein the touch screen is used for receiving the driving signal and sending the driving signal to the main control unit, and the main control unit executes corresponding operation according to the driving signal.

Optionally, when the metal ring is placed on a fingerprint recognition sensor, the main controller is configured to switch a driving mode of the touch screen to a signal sending mode and a signal receiving mode.

Optionally, when the terminal input assembly includes the first detection module, the terminal further includes a second detection module, the second detection module is electrically connected to the main control, and the second detection module is configured to detect whether the metal ring is taken out, and if so, the main control is invoked to switch the driving mode of the touch screen to the signal receiving only mode.

Optionally, when the terminal input assembly includes a first wireless module, the terminal further includes a second wireless module, and when the metal ring is taken out, the first wireless module is configured to perform communication matching with the second wireless module, and the second wireless module is configured to call the main control when the matching with the first wireless module is successful, so as to switch the driving mode of the touch screen to the signal receiving only mode.

Optionally, when the terminal input assembly includes the touch sensor, and when the metal ring is taken out, the first wireless module is configured to send the touch signal to the second wireless module, the second wireless module is configured to send the touch signal to the main control, and the main control performs a corresponding operation according to the touch signal;

and/or when the terminal input assembly comprises a temperature sensor and the metal ring is taken out, the first wireless module is used for sending the temperature information to the second wireless module, the second wireless module is used for receiving the temperature information and sending the temperature information to the main control, and the main control executes corresponding operation according to the temperature information;

and/or when the terminal input assembly comprises an acceleration sensor and the metal ring is taken out, the first wireless module is used for sending the acceleration information to the second wireless module, the second wireless module is used for receiving the acceleration information and sending the acceleration information to the main control, and the main control executes corresponding operation according to the acceleration information.

A terminal input method is realized on the basis of the terminal;

the terminal input method comprises the following steps:

when the metal ring is taken out, the control module switches the metal ring from the fingerprint identification mode to the signal transmission mode;

the control module generates a driving signal and loads the driving signal to the metal ring;

the metal ring transmits the driving signal to the touch screen;

the touch screen receives the driving signal and sends the driving signal to the main control, and the main control executes corresponding operation according to the driving signal.

Optionally, when the metal ring is placed on a fingerprint recognition sensor, the terminal input method further includes:

and the main control switches the driving mode of the touch screen into a signal sending and receiving mode.

Optionally, when the terminal input assembly includes a first detection module and the terminal further includes a second detection module, the terminal input method further includes:

the first detection module and the second detection module respectively detect whether the metal ring is taken out, if so, the first detection module calls the control module to start to generate the driving signal, and the second detection module calls the main control module to switch the driving mode of the touch screen into a signal receiving only mode.

Optionally, when the terminal input component includes the touch sensor, the terminal input method further includes:

when the metal ring is taken out, the first wireless module and the second wireless module are in communication matching, and when the matching is successful, the first wireless module calls the control module to generate the driving signal, and the second wireless module calls the main control module to switch the driving mode of the touch screen into a signal receiving only mode.

Optionally, when the terminal input component includes a touch sensor, the terminal input method includes:

when the metal ring is taken out, the touch sensor generates a touch signal after receiving external touch operation and sends the touch signal to the control module; the control module sends the touch signal to the first wireless module; the first wireless module sends the touch signal to the second wireless module; the second wireless module sends the touch signal to the master control; the master control executes corresponding operation according to the touch signal;

and/or, when the terminal input assembly further comprises a temperature sensor, the terminal input method comprises:

when the metal ring is taken out, the temperature sensor senses external temperature to generate temperature information and sends the temperature information to the control module; the control module sends the temperature information to the first wireless module; the first wireless module sends the temperature information to the second wireless module; the second wireless module receives the temperature information and sends the temperature information to the master control; the master control executes corresponding operation according to the temperature information;

and/or, when the terminal input assembly further comprises an acceleration sensor, the terminal input method comprises:

when the metal ring is taken out, the acceleration sensor senses acceleration to generate acceleration information and sends the acceleration information to the control module; the control module sends the acceleration information to the first wireless module; the first wireless module sends the acceleration information to the second wireless module; the second wireless module receives the acceleration information and sends the acceleration information to the master control; and the main control executes corresponding operation according to the acceleration information.

The positive progress effects of the invention are as follows:

according to the terminal input assembly, the control module is arranged on the metal ring on the fingerprint module, when the metal ring is taken out of the fingerprint module, the control module controls the metal ring to be switched from the fingerprint identification mode to the signal emission mode, so that the metal ring emits the driving signal generated by the control module to the touch screen, and the defect that the input of the touch screen cannot accept the input of common gloves when the touch screen is worn is overcome. After the metal ring is sleeved with the fingers, normal touch operation is performed by using the metal ring, and the metal ring is not limited to the thickness and the material of the glove or the glove.

Drawings

Fig. 1 is a schematic structural diagram of a fingerprint module according to the prior art.

Fig. 2 is a block diagram of a terminal input assembly according to embodiment 1 of the present invention.

Fig. 3 is a schematic structural diagram of a terminal input assembly according to embodiment 1 of the present invention.

Fig. 4 is a schematic diagram of an installation position of the terminal input assembly according to embodiment 1 of the present invention.

Fig. 5 is a schematic view of another installation position of the terminal input assembly according to embodiment 1 of the present invention. Fig. 6 is a block diagram of a terminal input assembly according to embodiment 2 of the present invention.

Fig. 7 is a side view of a terminal input module according to embodiment 2 of the present invention.

Fig. 8 is a schematic front view of a terminal input module according to embodiment 2 of the present invention. Fig. 9 is a block diagram of a terminal according to embodiment 3 of the present invention.

Fig. 10 is a block diagram of a terminal according to embodiment 4 of the present invention.

Fig. 11 is a schematic usage status diagram of the terminal according to embodiment 4 of the present invention.

Fig. 12 is a schematic diagram of a preset usage scenario of the terminal according to embodiment 4 of the present invention.

Fig. 13 is a flowchart of a terminal input method according to embodiment 5 of the present invention.

Fig. 14 is a flowchart of a terminal input method according to embodiment 6 of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

The structure of the existing general fingerprint module is shown in fig. 1, and comprises a fingerprint module chip 100, a fingerprint module chip covering layer 101, a metal ring 102, an FPC (flexible printed circuit) 103 and a steel sheet 104, wherein the front surface of the covering layer 101 is generally glass or ceramic, the back surface is generally paint, glass or ceramic, the FPC realizes the electrical connection of the fingerprint module and an external connecting component, the FPC is connected with the metal ring 102 through glue, and the steel sheet plays a role in bearing the fingerprint chip and conducting the ground. Wherein the metal ring 102 is primarily for aesthetic purposes and there are no other practical functions. The following examples 1-6 are all based on a metal ring 102.

Example 1

This embodiment provides a terminal input subassembly, as shown in fig. 2, terminal input subassembly includes control module 1 and fingerprint module 2, fingerprint module 2 contains becket 21 and fingerprint identification sensor 22, becket 21 cover is located the fingerprint identification sensor 22 outside, when becket 21 is taken out, control module 1 is used for switching becket 21 from the fingerprint identification mode to the signal transmission mode, control module 1 still is used for producing drive signal and loads on becket 21, becket 21 is used for transmitting drive signal to touch-sensitive screen 3.

The metal ring 21 is sleeved outside the fingerprint identification sensor 22 to realize the normal fingerprint identification function of the fingerprint module 2, and the fingerprint identification mode is realized at the moment; when the metal ring 21 is removed from the fingerprint identification sensor 22, the control module 1 generates a driving signal and applies the driving signal to the metal ring 21, the metal ring 21 completes the switching from the fingerprint identification mode to the signal transmission mode, and the control module 1 transmits the driving signal to the touch screen 3 through the metal ring 21.

The terminal input assembly also includes a battery for powering the control module. The structure of the terminal input assembly is schematically shown in fig. 3, and the control module is arranged on the outer peripheral surface of the metal ring. As shown in fig. 4 and 5, the terminal input assembly may be disposed on the front surface of the terminal 200 where the touch screen 3 is located or on the back surface of the terminal 200, or may be designed and installed in other positions according to specific use requirements. Terminal input assembly is through setting up control module 1 on the becket 21 on fingerprint module 2, when taking out becket 21 from fingerprint module 2, control module 1 control becket 21 switches to the signalling mode from the fingerprint identification mode for the drive signal that becket 21 transmission control module 1 produced to touch-sensitive screen 3, thereby overcome touch-sensitive screen 3 and can't accept the defect of wearing ordinary gloves input. The metal ring 21 is fitted over the finger, and normal touch operation is performed by using the metal ring 21, so that the input of the touch screen 3 is not limited to the thickness and material of the glove or to the glove.

Example 2

The terminal input assembly of the present embodiment is an improvement on the embodiment 1, and when the metal ring 21 is placed on the fingerprint recognition sensor 22, the control module 1 is further configured to switch the metal ring 21 from the signal transmission mode to the fingerprint recognition mode, and further configured to stop generating the driving signal.

In order to realize the real-time and intelligent switching between the fingerprint identification mode and the signal transmission mode of the control metal ring 21 of the control module 1, as shown in fig. 6, the terminal input assembly further includes a first detection module 23, the first detection module 23 is electrically connected with the control module 1, the first detection module 23 is used for detecting whether the metal ring 21 is taken down from the fingerprint identification sensor 22, if so, the control module 1 switches the metal ring 21 from the fingerprint identification mode to the signal transmission mode, and the control module 1 generates a driving signal. The first detection module 23 is further configured to detect whether the metal ring 21 is placed back on the fingerprint sensor 22, and if so, the control module 1 is further configured to switch the metal ring 21 from the signal transmission mode to the fingerprint recognition mode, and further configured to stop generating the driving signal. In this embodiment, the first detection module 23 is a hall sensor.

Optionally, the terminal input assembly further includes a first wireless module 24, the first wireless module 24 is electrically connected to the control module 1, and the first wireless module 24 is configured to perform communication matching with the terminal, and call the control module 1 to load a driving signal onto the metal ring 21 when matching is successful.

More specifically, the communication matching may include matching the frequencies of the driving signal generated by the control module 1 and the terminal receiving driving signal, and multiple frequency modes may also be set, so that the terminal input component and the terminal implement transmission and reception of the driving signal at different frequencies to meet different scene needs. For example, a low-frequency driving signal frequency can be applied to a text input editing scene, and a high-frequency driving signal frequency can be applied to a game playing scene, so that the performance of the terminal input assembly is improved.

The terminal input assembly comprises a touch sensor 25, the touch sensor 25 is electrically connected with the control module 1, the touch sensor 25 is arranged on the metal ring 21, the touch sensor 25 is used for generating a touch signal and sending the touch signal to the control module 1 after receiving external touch operation, the control module 1 is used for sending the touch signal to the first wireless module 24, and the first wireless module 24 is also used for sending the touch signal to the terminal.

The touch sensor 25 may be disposed on the flexible circuit board and outside the metal ring 21, and is configured to detect an external touch to generate a touch signal.

In this embodiment, as shown in fig. 7, the touch sensor 25 includes an electrical sensitive layer 251 and a touch sensing chip 252, the electrical sensitive layer 251 and the touch sensing chip 252 are electrically connected, the electrical sensitive layer 251 is disposed on the outer side of the metal ring 21, the touch sensing chip 252 is electrically connected to the control module 1, the electrical sensitive layer 251 detects external touch to generate a touch signal and send the touch signal to the touch sensing chip 252, the touch sensing chip 252 sends the touch signal to the control module 1, the control module 1 sends the touch signal to the terminal, and the terminal applies the touch signal to enrich an interaction scenario between the terminal input component and the terminal.

Optionally, the terminal input assembly further includes a temperature sensor 26, the temperature sensor 26 is disposed on the metal ring 21, the temperature sensor 26 is electrically connected to the control module 1, the temperature sensor 26 is configured to sense an external temperature to generate temperature information and send the temperature information to the control module 1, the control module 1 is configured to send the temperature information to the first wireless module 24, and the first wireless module is further configured to send the temperature information to the terminal.

Optionally, the terminal input assembly further includes an acceleration sensor 27, the acceleration sensor 27 is disposed on the metal ring 21, the acceleration sensor 27 is electrically connected to the control module 1, the acceleration sensor 27 is configured to sense acceleration to generate acceleration information and send the acceleration information to the control module 1, the control module 1 is configured to send the acceleration information to the first wireless module 24, and the first wireless module 24 is further configured to send the acceleration information to the terminal.

As shown in fig. 8, the control module 1, the first detection module 23, the first wireless module 24, the touch sensor 25, the temperature sensor 26, and the acceleration sensor 27 are disposed on the outer circumferential surface of the metal ring.

As shown in fig. 4 and 5, the terminal input assembly may be disposed on the front surface of the terminal 200 where the touch screen 3 is located or on the back surface of the terminal 200, or may be designed and installed at other positions according to specific use requirements.

Terminal input assembly is through setting up control module 1 on becket 21 on fingerprint module 2, first detection module 23, first wireless module 24, temperature sensor 26 and acceleration sensor 27, when taking out becket 21 from fingerprint module 2, control module 1 control becket 21 switches over to the signal transmission mode from the fingerprint identification mode for becket 21 transmits the drive signal that control module 1 produced to the touch-sensitive screen, thereby overcome the unable acceptable defect of wearing ordinary gloves input of touch-sensitive screen input. The metal ring 21 is sleeved on the finger, and normal touch operation is performed by using the metal ring 21, so that the touch screen input is not limited to the thickness and the material of the glove, and certainly not to the glove. Through setting up touch-control sensor 25, temperature sensor 26 and acceleration sensor 27 to carry out data transmission through first wireless module 24 and terminal, make the function of terminal input subassembly abundanter.

Example 3

In this embodiment, as shown in fig. 9, the terminal includes the terminal input assembly of embodiment 1, and further includes a touch screen 3 and a main control 4, where the touch screen 3 is configured to receive a driving signal and send the driving signal to the main control 4, and the main control 4 executes a corresponding operation according to the driving signal.

As shown in fig. 4 and 5, the fingerprint module 2 of the present embodiment is disposed on the front surface of the terminal 200 or the back surface of the terminal 200, and can be designed and mounted to other positions according to specific requirements. The metal ring 21 is sleeved outside the fingerprint identification sensor 22 to realize the normal fingerprint identification function of the fingerprint module 2, and the fingerprint identification mode is adopted at the moment; when the metal ring 21 is taken down from the fingerprint identification sensor 22, the control module 1 generates a driving signal and loads the driving signal to the metal ring 21, the metal ring 21 completes switching from the fingerprint identification mode to the signal transmission mode, the control module 1 transmits the driving signal to the touch screen 3 through the metal ring 21, the touch screen 3 is used for receiving the driving signal and transmitting the driving signal to the main control 4, and the main control 4 executes different operations under different functions according to the driving signal. The metal ring 21 is close to or touches the touch screen 3, the driving signals move to different positions, the touch screen 3 receives the driving signals of different positions, the main control 4 converts the driving signals of different positions into different coordinate information, and the main control 4 executes different operations according to the different coordinate information in different application scenes. For example, in the editing input interface, the main control unit 4 may perform a handwriting operation or an input operation according to different coordinate information; in the icon selection interface, an icon selection action or an icon sliding operation and the like can be executed, and different application scenes have different operation functions.

Terminal input assembly at terminal is through setting up control module 1 on the becket 21 on fingerprint module 2, when taking out becket 21 from fingerprint module 2, control module 1 control becket 21 switches to the signalling mode from the fingerprint identification mode for drive signal that becket 21 transmission control module 1 produced to touch-sensitive screen 3, touch-sensitive screen 3 is used for receiving drive signal and sends drive signal to master control 4, master control 4 carries out different operations under the function of difference according to drive signal. Thereby overcoming the defect that the input of the touch screen 3 can not be accepted by wearing common gloves. The metal ring 21 is sleeved on the finger, and normal touch operation is performed by using the metal ring 21, so that the input of the touch screen 3 is not limited to the thickness and the material of the glove or the glove.

Example 4

The terminal of the present embodiment is an improvement on the embodiment 3, and when the metal ring 21 is placed on the fingerprint recognition sensor 22, the main control unit 4 switches the driving mode of the touch screen 3 to the signal transmission and reception mode.

The terminal of the present embodiment includes the input component in embodiment 2, as shown in fig. 4 and 5, the input component of the present embodiment is disposed on the front side of the terminal 200 or the back side of the terminal 200, and can also be designed and installed in other positions according to specific use requirements. As shown in fig. 10, the terminal further includes a second detection module 41 and a second wireless module 42, and the second wireless module 42 and the second detection module 41 are electrically connected to the main control 4, respectively.

The first detecting module 23 is configured to detect whether the metal ring 21 is detached from the fingerprint sensor 22, if so, the control module 1 switches the metal ring 21 from the fingerprint sensing mode to the signal transmitting mode, and the control module 1 generates the driving signal. Meanwhile, the second detection module 41 is configured to detect whether the metal ring 21 is taken out from the fingerprint identification sensor 22, and if so, the second detection module 41 invokes the main control 4 to switch the driving mode of the touch screen 3 to the signal receiving only mode.

The first detecting module 23 is configured to detect whether the metal ring 21 is placed on the fingerprint sensor 22, and if so, the main control 4 is configured to switch a driving mode of the touch screen 3 to a signal sending mode and a signal receiving mode.

Therefore, the mode switching of the metal ring 21 and the driving mode switching of the touch screen 3 can be automatically matched and realized.

In the present embodiment, the second detection module 41 is a hall sensor.

The first wireless module 24 is configured to perform communication matching with the second wireless module 42, and the second wireless module 42 is configured to invoke the main control 4 when the matching with the first wireless module 24 is successful, so as to switch the driving mode of the touch screen 3 to the signal-only receiving mode.

More specifically, the communication matching may include matching the frequencies of the driving signal generated by the control module and the driving signal received by the terminal, and multiple frequency modes may also be set, so that the terminal input assembly and the terminal implement transmission and reception of the driving signal at different frequencies to meet different scene needs. For example, a low-frequency driving signal frequency can be applied to a text input editing scene, and a high-frequency driving signal frequency can be applied to a game playing scene, so that the performance of the terminal is improved.

The first wireless module 24 is configured to send a touch signal to the second wireless module 42, the second wireless module 42 is configured to send the touch signal to the main control 4, and the main control 4 executes a corresponding operation according to the touch signal. More specifically, as shown in fig. 11, when a user clicks or slides on the touch screen 3 by using the metal ring 21 and touches the touch sensor 25 of the input assembly of the metal ring 21 and generates a touch signal, the first wireless module 24 sends the touch signal to the second wireless module 42 of the terminal, the main controller 4 receives the driving signal transmitted by the metal ring 21, and meanwhile, the main controller 4 receives the touch signal, and meets a preset trigger condition of the main controller 4, so as to perform a preset usage scenario:

as shown in fig. 12, the touch screen 3 displays a new interactive display interface, which may include a plurality of control interfaces 31, for example, three control interfaces, at this time, the thumb of the user may slide on the metal ring 21 along the sliding direction shown in the figure, and the touch sensor 25 may detect the corresponding touch signal on the metal ring 21; the touch sensor 25 sends the touch signal to the main control 4 through the first wireless module 24, and the main control 4 obtains a corresponding interactive display action according to the touch signal, for example, when a thumb of a user slides on the metal ring 21 from left to right, the first control interface is correspondingly switched to the second control interface and the third control interface.

The first wireless module 24 is configured to send temperature information to the second wireless module 42, the second wireless module 42 is configured to receive the temperature information and send the temperature information to the main control 4, and the main control 4 performs a corresponding operation according to the temperature information.

More specifically, the main control unit 4 may display the temperature information through the touch screen 3 or send a sound through the terminal to perform alarm processing, and the temperature information may be the outside weather temperature or the human body temperature.

The first wireless module 24 is configured to send acceleration information to the second wireless module 42, the second wireless module 42 is configured to receive the acceleration information and send the acceleration information to the main control 4, and the main control 4 executes corresponding operations according to the acceleration information.

More specifically, the acceleration information may be the acceleration information of the metal ring 21 touching the touch screen 3 and sliding on the touch screen 3, and the main controller 4 performs the sliding operation of interface sliding acceleration or deceleration according to the touched or sliding acceleration information, or may execute different operation functions according to specific requirements in other specific application scenarios.

The terminal of the embodiment is added with the functions of temperature detection, acceleration detection, touch control and the like on the basis of the embodiment 3, so that the terminal function is richer.

Example 5

The embodiment provides a terminal input method, which is implemented based on the terminal of embodiment 3. As shown in fig. 13, the terminal input method includes:

step 501, the control module switches the metal ring from the fingerprint identification mode to the signal transmission mode.

Step 502, the control module generates a driving signal and loads the driving signal to the metal ring.

Step 503, the metal ring transmits a driving signal to the touch screen.

And step 504, the touch screen receives the driving signal and sends the driving signal to the main control, and the main control executes corresponding operation according to the driving signal.

In the terminal input method provided by this embodiment, when the metal ring is taken off from the fingerprint identification sensor, the control module generates a driving signal and loads the driving signal to the metal ring, the metal ring completes switching from the fingerprint identification mode to the signal transmission mode, and the control module transmits the driving signal to the touch screen through the metal ring.

Through set up control module on the becket on the fingerprint module, when taking out the becket from the fingerprint module, control module control becket switches to the signalling mode from the fingerprint identification mode for drive signal to the touch-sensitive screen that becket transmission control module produced, thereby overcome the unable accepting of touch-sensitive screen input and wear the defect of ordinary gloves input. The metal ring is sleeved on the finger, and normal touch operation is performed by using the metal ring, so that the touch screen input is not limited to the thickness and the material of the glove or to the glove.

Example 6

The terminal input method of this embodiment is implemented based on the terminal of embodiment 4, and as shown in fig. 14, the terminal input method includes:

601, the first detection module and the second detection module respectively detect whether the metal ring is moved away from the terminal or placed on the terminal, and if the metal ring is moved away from the terminal, step 602 is executed; if so, go to step 603.

Step 602, the first detection module calls to start the first wireless module, the second detection module calls to start the second wireless module, the first wireless module and the second wireless module are in communication matching, if the matching is successful, the first wireless module calls the control module to start to generate a driving signal, and the second wireless module calls the master control to switch the driving mode of the touch screen into a signal receiving only mode. After step 602 is executed, the

subsequent steps

603, 604 and 605 can be executed synchronously.

More specifically, the communication matching may include matching the frequencies of the driving signal generated by the control module and the driving signal received by the terminal, and multiple frequency modes may also be set, so that the terminal input assembly and the terminal implement transmission and reception of the driving signal at different frequencies to meet different scene needs. For example, a low-frequency driving signal frequency can be applied to a text input editing scene, and a high-frequency driving signal frequency can be applied to a game playing scene, so that the performances of the terminal input assembly and the terminal are improved.

And 603, the first detection module calls to close the first wireless module, the second detection module calls to close the second wireless module, the control module switches the metal ring from the signal transmission mode to the fingerprint identification mode and stops generating a driving signal, and the main control switches the driving mode of the touch screen into a signal sending and receiving mode.

Step 604, the touch sensor generates a touch signal and sends the touch signal to the control module after receiving an external touch operation; the control module sends a touch signal to the first wireless module; the first wireless module sends a touch signal to the second wireless module; the second wireless module sends a touch signal to the master control; and the master control executes corresponding operation according to the touch signal.

As shown in fig. 11, when a user clicks or slides on the touch screen by using the metal ring and there is a touch operation and generates a touch signal on the touch sensor of the metal ring input assembly, the first wireless module sends the touch signal to the second wireless module of the terminal, the master control receives the driving signal transmitted by the metal ring, and meanwhile, the master control receives the touch signal, meets a preset master control trigger condition, and performs a preset usage scenario:

the touch screen displays a new interactive display interface, as shown in fig. 12, the interface may include a plurality of control interfaces, for example, three control interfaces, at this time, a thumb of a user may slide on the metal ring along a sliding direction of the diagram, and the touch sensor may detect a corresponding touch signal on the metal ring; the touch sensor sends the touch signal to the master control through the first wireless module, and the master control obtains a corresponding interactive display action according to the touch signal, for example, if a thumb of a user slides on the metal ring from left to right, the first control interface is correspondingly switched to the second control interface and the third control interface.

Step 605, the temperature sensor senses external temperature to generate temperature information and sends the temperature information to the control module; the control module sends the temperature information to the first wireless module; the first wireless module sends temperature information to the second wireless module; the second wireless module receives the temperature information and sends the temperature information to the master control; and the main control executes corresponding operation according to the temperature information.

The master control can display the temperature information through a touch screen or give out a sound through a terminal to perform alarm processing, and the temperature information can be the external weather temperature or the human body temperature.

Step 606, the acceleration sensor senses acceleration to generate acceleration information and sends the acceleration information to the control module; the control module sends the acceleration information to the first wireless module; the first wireless module sends acceleration information to the second wireless module; the second wireless module receives the acceleration information and sends the acceleration information to the master control; and the main control executes corresponding operation according to the acceleration information.

The acceleration information can be acceleration information of a metal ring touch screen and sliding on the touch screen, the main controller performs sliding operation of interface sliding acceleration or deceleration according to the touch or sliding acceleration information, and different operation functions can be executed according to specific requirements in other specific application scenarios.

The terminal input method of the embodiment enables the terminal functions to be richer due to the addition of the functions of temperature detection, acceleration detection, touch control and the like.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims

1. The utility model provides a terminal input subassembly, its characterized in that, terminal input subassembly includes control module and fingerprint module, the fingerprint module contains becket and fingerprint identification sensor, the becket cover is located the fingerprint identification sensor outside, works as when the becket is taken out, control module is used for with the becket switches over to the signalling mode from the fingerprint identification mode, still is used for producing drive signal and loads to on the becket, the becket is used for launching drive signal is to the touch-sensitive screen.

2. The terminal input assembly of claim 1, wherein when the metal ring is placed on a fingerprint recognition sensor, the control module is configured to switch the metal ring from the signal transmission mode to the fingerprint recognition mode and is further configured to stop generating the driving signal.

3. The terminal input assembly of claim 1, further comprising a first detection module electrically connected to the control module, the first detection module being configured to detect whether the metal ring is removed, and if so, the control module is invoked to switch the metal ring from the fingerprint recognition mode to the signal transmission mode and generate the driving signal.

4. The terminal input assembly of claim 1, further comprising a first wireless module electrically connected to the control module, the first wireless module configured to perform a communication match with the terminal when the metal ring is removed, and to invoke the control module to load the driving signal onto the metal ring when the match is successful.

5. The terminal input assembly according to claim 4, wherein the terminal input assembly comprises a touch sensor electrically connected to the control module, the touch sensor is disposed on the metal ring, when the metal ring is removed, the touch sensor is configured to generate a touch signal after receiving an external touch operation and transmit the touch signal to the control module, the control module is configured to transmit the touch signal to the first wireless module, and the first wireless module is further configured to transmit the touch signal to the terminal;

6. A terminal, characterized in that the terminal comprises the terminal input assembly according to any one of claims 1 to 5, and further comprises a touch screen and a main control, wherein the touch screen is used for receiving the driving signal and sending the driving signal to the main control, and the main control performs corresponding operations according to the driving signal.

7. The terminal of claim 6, wherein the master is configured to switch a driving manner of the touch screen to a transmission and reception signal mode when the metal ring is placed on the fingerprint recognition sensor.

8. The terminal according to claim 6, wherein when the terminal input assembly includes a first detection module, the terminal further includes a second detection module, the second detection module is electrically connected to the main control, the second detection module is configured to detect whether the metal ring is removed, and if so, the main control is invoked to switch the driving mode of the touch screen to a signal-only receiving mode.

9. The terminal of claim 6, wherein when the terminal input assembly comprises a first wireless module, the terminal further comprises a second wireless module, when the metal ring is removed, the first wireless module is configured to perform communication matching with the second wireless module, and the second wireless module is configured to invoke the master control when the matching with the first wireless module is successful, so as to switch a driving mode of the touch screen to a signal-only-receiving mode.

10. The terminal of claim 9, wherein when the terminal input assembly includes a touch sensor, when the metal ring is removed, the first wireless module is configured to send a touch signal to the second wireless module, the second wireless module is configured to send the touch signal to the master, and the master performs a corresponding operation according to the touch signal;

and/or when the terminal input assembly comprises a temperature sensor and the metal ring is taken out, the first wireless module is used for sending temperature information to the second wireless module, the second wireless module is used for receiving the temperature information and sending the temperature information to the main control, and the main control executes corresponding operation according to the temperature information;

and/or when the terminal input assembly comprises an acceleration sensor and the metal ring is taken out, the first wireless module is used for sending acceleration information to the second wireless module, the second wireless module is used for receiving the acceleration information and sending the acceleration information to the main control, and the main control executes corresponding operation according to the acceleration information.

11. A terminal input method, characterized in that the terminal input method is implemented based on the terminal of any one of claims 6-10;

the terminal input method comprises the following steps:

the metal ring transmits the driving signal to the touch screen;

12. The terminal input method as claimed in claim 11, wherein when the metal ring is placed on the fingerprint recognition sensor, the terminal input method further comprises:

13. The terminal input method of claim 11, wherein when the terminal input assembly includes a first detection module, the terminal further includes a second detection module, the terminal input method further comprises:

14. The terminal input method of claim 11, wherein when the terminal input assembly includes a touch sensor and a first wireless module, and the terminal includes a second wireless module, the terminal input method further comprises:

15. The terminal input method of claim 14,

when the terminal input assembly comprises a touch sensor, the terminal input method comprises the following steps: